Communication control apparatus, operation terminal, and equipment operation system

ABSTRACT

One of objects of the invention is to lower a possibility that operated equipment ( 101 ) is operated from an operation terminal ( 103 ) of a person who does not intend to operate the operated equipment ( 101 ). A communication control apparatus ( 102 ) includes a first wireless communication unit ( 110 ) that starts action of near-field wireless communication when acquiring a detection signal of a user or a target by a sensor ( 106 ) installed in the operated equipment ( 101 ) or an apparatus relating to the operated equipment ( 101 ), and an operation unit ( 111 ) that operates the operated equipment ( 101 ) by use of the first wireless communication unit ( 110 ), based on information from the operation terminal ( 103 ).

TECHNICAL FIELD

The present invention relates to a communication control apparatus, an operation terminal, an equipment operation system, a communication control method, an operation terminal control method, and a program.

BACKGROUND ART

Various techniques for remotely operating operated equipment by an operation terminal including a communication function have been proposed.

For example, a remote operation system described in PTL 1 includes a mobile communication terminal having a touch panel type display and a wireless communication function, and operation target equipment remotely operated by a control signal wirelessly transmitted from the mobile communication terminal.

Further, the remote operation system described in PTL 1 includes a terminal recognition means for recognizing that the mobile communication terminal is present in a specific area where the operation target equipment is remotely operable. Then, on condition that recognition by the terminal recognition means is present, a dedicated operation screen for operating the operation target equipment is displayed on the touch panel type display of the mobile communication terminal.

PTL 1 describes that the remote operation system includes an entry sensing unit that senses entry of the mobile communication terminal into a room (area) where the operation target equipment is installed, and the mobile communication terminal and the entry sensing unit are each caused to function as the terminal recognition means.

RELATED DOCUMENT -Patent Document

[PTL 1] Japanese Patent Application Publication No. 2018-182425

SUMMARY OF THE INVENTION Technical Problem

However, it is considered that, with the technique described in PTL 1, when an entry sensing unit constituting a terminal recognition means detects entry into the area, a dedicated operation screen is displayed on mobile communication terminals of all detected persons. Thus, there is a concern that a dedicated operation screen is displayed on a touch panel type display of even a mobile communication terminal of a person who does not intend to operate operation target equipment when the mobile communication terminal is in a specific area.

The present invention has been made in view of the situation described above, and one of objects thereof is to lower a possibility that operated equipment is operated from an operation terminal of a person who does not intend to operate the operated equipment.

Solution to Problem

In order to achieve the above object, a communication control apparatus according to a first aspect of the present invention includes:

-   a first wireless communication means for starting action of     near-field wireless communication when acquiring a detection signal     of a user or a target by a sensor installed in operated equipment or     an apparatus relating to the operated equipment; and -   an operation means for operating the operated equipment by use of     the first wireless communication means, based on information from     the operation terminal.

In order to achieve the above object, an operation terminal according to a second aspect of the present invention includes:

-   an equipment information acquisition means for acquiring equipment     information for identifying operated equipment; -   an operation screen acquisition means for acquiring operation screen     information relating to an operation screen of the operated     equipment, by use of the equipment information; -   an output means for outputting the operation screen information     acquired by the operation screen acquisition means; -   an operation history storage means for storing an operation history     via the operation screen; and -   an operation history transmission means for transmitting, to an     external apparatus, transmission information including at least one     of identification information of an operation terminal and     identification information of a user, and the operation history.

In order to achieve the above object, an equipment operation system according to a third aspect of the present invention includes:

-   a communication control apparatus and an operation terminal being     capable of performing near-field wireless communication with each     other, wherein     -   the communication control apparatus includes         -   a first wireless communication means for starting action of             near-field wireless communication when acquiring a detection             signal of a user or a target by a sensor installed in             operated equipment or an apparatus relating to the operated             equipment, and         -   an operation means for operating the operated equipment by             use of the first wireless communication means, based on             information acquired from the operation terminal, and     -   the operation terminal includes         -   an equipment information acquisition means for acquiring             equipment information for identifying the operated             equipment,         -   an operation screen display means for displaying an             operation screen of the operated equipment, based on the             equipment information, and         -   an operation information transmission means for             transmitting, to the first wireless communication means, the             information according to an operation on the operation             screen.

In order to achieve the above object, a communication control method according to a fourth aspect of the present invention includes,

-   by a computer: -   starting action of near-field wireless communication when acquiring     a detection signal of a user or a target by a sensor installed in     operated equipment or an apparatus relating to the operated     equipment; and -   operating the operated equipment by use of the near-field wireless     communication, based on information from the operation terminal.

In order to achieve the above object, a program according to a fifth aspect of the present invention causes A computer to execute:

-   starting action of near-field wireless communication when acquiring     a detection signal of a user or a target by a sensor installed in     operated equipment or an apparatus relating to the operated     equipment; and -   operating the operated equipment by use of the near-field wireless     communication, based on information from the operation terminal.

In order to achieve the above object, an operation terminal control method according to a sixth aspect of the present invention includes,

-   by a computer: -   acquiring equipment information for identifying operated equipment; -   acquiring operation screen information relating to an operation     screen of the operated equipment, by use of the equipment     information; -   outputting the operation screen information acquired by the     operation screen acquisition means; and -   transmitting, to an external apparatus, transmission information     including at least one of identification information of an operation     terminal and identification information of a user, and an operation     history via the operation screen.

In order to achieve the above object, a program according to a seventh aspect of the present invention causes a computer to execute:

-   acquiring equipment information for identifying operated equipment; -   acquiring operation screen information relating to an operation     screen of the operated equipment, by use of the equipment     information; -   outputting the operation screen information acquired by the     operation screen acquisition means; and -   transmitting, to an external apparatus, transmission information     including at least one of identification information of an operation     terminal and identification information of a user, and an operation     history via the operation screen.

Advantageous Effects of Invention

The present invention enables to lower a possibility that operated equipment is operated from an operation terminal of a person who does not intend to operate the operated equipment.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram illustrating a configuration of an equipment operation system according to an example embodiment 1 of the present invention.

FIG. 2 is a diagram illustrating a functional configuration of operated equipment according to the example embodiment 1.

FIG. 3 is a diagram illustrating a functional configuration of a communication control apparatus according to the example embodiment 1.

FIG. 4 is a diagram illustrating a functional configuration of an operation terminal according to the example embodiment 1.

FIG. 5 is a diagram illustrating one example of a physical configuration of the operated equipment according to the example embodiment 1.

FIG. 6 is a diagram illustrating one example of a physical configuration of the communication control apparatus according to the example embodiment 1.

FIG. 7 is a first diagram illustrating a flow of equipment operation processing according to the example embodiment 1 of the present invention.

FIG. 8 is a second diagram illustrating a flow of the equipment operation processing according to the example embodiment 1 of the present invention.

FIG. 9 is a third diagram illustrating a flow of the equipment operation processing according to the example embodiment 1 of the present invention.

FIG. 10 is a fourth diagram illustrating a flow of the equipment operation processing according to the example embodiment 1 of the present invention.

FIG. 11 is a diagram illustrating a configuration of an equipment operation system according to an example embodiment 2 of the present invention.

FIG. 12 is a diagram illustrating a functional configuration of operated equipment according to the example embodiment 2.

FIG. 13 is a diagram illustrating a functional configuration of a communication control apparatus according to the example embodiment 2.

FIG. 14 is a diagram illustrating a functional configuration of an operation terminal according to the example embodiment 2.

FIG. 15 is a diagram illustrating one example of a physical configuration of the operated equipment according to the example embodiment 2.

FIG. 16 is a first diagram illustrating a flow of equipment operation processing according to the example embodiment 2 of the present invention.

FIG. 17 is a second diagram illustrating a flow of the equipment operation processing according to the example embodiment 2 of the present invention.

FIG. 18 is a third diagram illustrating a flow of the equipment operation processing according to the example embodiment 2 of the present invention.

DESCRIPTION OF EMBODIMENTS

Hereinafter, an example embodiment of the present invention is described by use of the drawings. Note that, in all of the drawings, a similar component is assigned with a similar reference sign, and description thereof is omitted, as appropriate.

Example Embodiment 1 <<Configuration of Equipment Operation System 100>>

An equipment operation system 100 according to an example embodiment 1 of the present invention is a system for operating operated equipment 101 from an operation terminal 103 of a user.

As illustrated in FIG. 1 , the equipment operation system 100 includes the operated equipment 101 to be operated by a user, a communication control apparatus 102 that is connected to the operated equipment 101 and controls communication of the operated equipment 101, the operation terminal 103 for operating the operated equipment 101, a communication terminal 104 for authenticating an operation of the operated equipment 101 from the operation terminal 103, and a server apparatus 105 for holding an operation history.

As the operated equipment 101, for example, equipment having a possibility of being operated by different users, such as medical equipment or a vending machine for a beverage, is preferably adopted. The communication control apparatus 102 and the operation terminal 103 are configured to be communicable with each other via a first communication path CP1.

The first communication path CP1 is a communication path for performing near-field wireless communication such as Bluetooth (registered trademark) and infrared communication.

By operating the operated equipment 101 from the operation terminal 103 of a user via the first communication path CP1 and the communication control apparatus 102, a chance where different users touch the operated equipment 101 can be reduced. This enables to lower contamination of the operated equipment 101 with a bacterium, a virus, or the like due to contact of a hand or the like of the user.

Moreover, the communication control apparatus 102, the operation terminal 103, and the server apparatus 105 are configured to be communicable with one another via a second communication path CP2.

The second communication path CP2 is a communication path, such as a local area network (LAN) and a wide area network (WAN), being communicable in a wider area than the first communication path CP1, and is constructed including a wireless communication line. Note that, the second communication path CP2 may be constructed including a wired communication line, as appropriate.

Further, the operation terminal 103 can acquire information from each of the communication terminal 104 and the operated equipment 101 by reading a code displayed on each of the communication terminal 104 and the operated equipment 101.

The code is, for example, a one-dimensional or two-dimensional bar code.

<Functional Configuration of Operated Equipment 101>

Functionally, as illustrated in FIG. 2 , the operated equipment 101 includes a sensor 106, an activation instruction unit 107, an equipment display unit 108, and an equipment control unit 109.

The sensor 106 is a sensor for detecting proximity of a user to a predetermined range (e.g., within one meter), and outputs a detection signal when a user or a predetermined target is detected.

The sensor 106 may be, for example, a human sensor provided in the operated equipment 101.

Moreover, for example, the sensor 106 may be a sensor (hereinafter, also referred to as a “touch sensor”) that detects contact of a user. For example, a touch sensor, such as a touch panel or a button for operation provided relevantly to a display screen of the equipment display unit 108, that a user touches for operating the operated equipment 101 is preferably adopted for a touch sensor as the sensor 106. Thereby, the sensor 106 can be achieved without adding a physical configuration to the operated equipment 101. Therefore, it becomes possible to suppress a configuration of the operated equipment 101 from being complicated.

Further, for example, the sensor 106 may be a sensor provided in relation to the operated equipment 101, such as a camera that captures a region where the operated equipment 101 is installed.

Further, when the operated equipment 101 is a vending machine of a beverage, the sensor 106 may be a sensor that recognizes, as a target, a container into which the beverage is injected, and detects that the container is placed in a predetermined position.

When the activation instruction unit 107 acquires the detection signal from the sensor 106, the activation instruction unit 107 outputs an activation instruction to the communication control apparatus 102. The activation instruction is an instruction for causing the communication control apparatus 102 to start action of near-field wireless communication via the first communication path CP1.

The equipment display unit 108 displays information by being configured in such a way as to include a display screen. The equipment display unit 108 according to the present example embodiment displays, for example, an equipment code. The equipment code is a code including equipment information (hereinafter, also referred to as an “equipment ID”) for identifying the operated equipment 101.

The equipment control unit 109 controls action of the operated equipment 101.

<Functional Configuration of Communication Control Apparatus 102>

Functionally, as illustrated in FIG. 3 , the communication control apparatus 102 includes a first wireless communication unit 110, an operation unit 111, a second wireless communication unit 112, and a history acquisition unit 113.

The first wireless communication unit 110 mutually communicates with the operation terminal 103 via the first communication path CP1, as a first wireless communication means of the communication control apparatus 102.

Specifically, the first wireless communication unit 110 starts action of near-field wireless communication when an activation instruction is acquired. In other words, when the first wireless communication unit 110 acquires a detection signal of a user or a target by the sensor 106, the first wireless communication unit 110 starts action of near-field wireless communication.

Moreover, when the first wireless communication unit 110 accepts an operation end instruction, the first wireless communication unit 110 ends the action of the near-field wireless communication. The operation end instruction is an instruction indicating that an operation of the operated equipment 101 is terminated, and is output from the operation terminal 103.

The operation unit 111 operates the operated equipment 101, based on information from the operation terminal 103 acquired via the first communication path CP1, by using the first wireless communication unit 110.

Specifically, the operation unit 111 includes a first equipment information acquisition unit 114, an output unit 115, and an operation control unit 116.

The first equipment information acquisition unit 114 acquires, as an acquisition means, an equipment ID from the operation terminal 103 via the first communication path CP1. For example, the first equipment information acquisition unit 114 acquires the equipment ID from the operation terminal 103 that has acquired the equipment ID included in an equipment code by reading the equipment code.

The output unit 115 outputs operation screen information to the operation terminal 103 via the first communication path CP1, based on the equipment ID acquired by the first equipment information acquisition unit 114. The operation screen information is information relating to an operation screen of the operated equipment 101 according to an equipment ID.

When the operation control unit 116 acquires operation information from the operation terminal 103 via the first communication path CP1, the operation control unit 116 outputs the operation information to the operated equipment 101. The operation information is information for operating the operated equipment 101, and the equipment control unit 109 that has acquired the operation information controls action of the operated equipment 101, based on the operation information.

The second wireless communication unit 112 mutually communicates with the operation terminal 103 via the second communication path CP2. In other words, the second wireless communication unit 112 performs wireless communication by a route being different from that of the first wireless communication unit 110, as a second wireless communication means of the communication control apparatus 102.

The history acquisition unit 113 acquires operation history information from the operation terminal 103 via the second communication path CP2, i.e., the second wireless communication unit 112 being different from the first wireless communication unit 110.

The operation history information includes an operation ID, and an operation history of the operated equipment 101. The operation ID is information for identifying a user who has operated the operated equipment 101, and includes, for example, at least one of identification information of the operation terminal 103 (hereinafter, also referred to as an “operation terminal ID”) and identification information of a user (hereinafter, referred to as a “user ID”).

The history acquisition unit 113 according to the present example embodiment acquires, from the operation terminal 103, transmission information including communication history information in addition to operation history information.

The communication history information is information relating to a communication history between the operation terminal 103 and the communication terminal 104 being different from the operation terminal 103. The communication history includes identification information of the communication terminal 104 (details are described later.), and a communication time between the communication terminal 104 and the operation terminal 103.

In other words, the history acquisition unit 113 according to the present example embodiment acquires operation history information including an operation ID and an operation history, from the operation terminal 103 via the second wireless communication unit 112, as a communication history acquisition means. Moreover, the history acquisition unit 113 according to the present example embodiment acquires communication history information as a communication history acquisition unit of the communication control apparatus 102.

<Functional Configuration of Operation Terminal 103>

Functionally, as illustrated in FIG. 4 , the operation terminal 103 includes a second equipment information acquisition unit 117, an operation screen display unit 118, an operation acceptance unit 119, an operation history storage unit 120, an authentication unit 121, and a terminal transmission unit 122.

The second equipment information acquisition unit 117 acquires an equipment ID, as an equipment information acquisition means of the operation terminal 103.

The second equipment information acquisition unit 117 according to the present example embodiment includes a camera, and acquires an equipment ID included in an equipment code, by reading the equipment code displayed on the equipment display unit 108. The second equipment information acquisition unit 117 transmits the equipment ID to the communication control apparatus 102 via the first communication path CP1.

Note that, the second equipment information acquisition unit 117 is not limited to a camera, and may be configured in such a way as to acquire an equipment ID from the operated equipment 101 by infrared communication or the like.

The operation screen display unit 118 is a touch panel, a screen, or the like according to an equipment ID that displays an operation screen of the operated equipment 101.

The operation screen display unit 118 according to the present example embodiment acquires operation screen information output from the output unit 115 by use of the equipment ID, as an operation screen acquisition means. Moreover, the operation screen display unit 118 displays the acquired operation screen information, as an output means of the operation terminal 103.

The operation acceptance unit 119 performs processing for operating the operated equipment 101, based on an operation of a user on the operation screen.

Specifically, the operation acceptance unit 119 accepts an operation of a user on the operation screen until an instruction to end an operation of the operated equipment 101 (operation end instruction) is accepted from the user, and generates operation information according to the operation. The operation acceptance unit 119 transmits the generated operation information to the communication control apparatus 102, as an operation information transmission means.

Moreover, the operation acceptance unit 119 holds an operation history of the operated equipment 101, and, when an operation end instruction is accepted, the operation acceptance unit 119 generates operation history information associating an operation terminal ID of the operation terminal 103 with an operation history, and causes the operation history storage unit 120 to hold the generated operation history information.

The operation history storage unit 120 is a storage unit for storing the operation history via the operation screen. The operation history storage unit 120 according to the present example embodiment holds operation history information.

The authentication unit 121 performs processing for acquiring, by a user of the operation terminal 103, authentication, regarding an operation of the operated equipment 101, by an authenticator being a user of the communication terminal 104 and having witnessed the operation.

Specifically, the authentication unit 121 includes a camera, and acquires, by reading an authentication code displayed on the communication terminal 104, identification information of the communication terminal 104 included in the authentication code (hereinafter, also referred to as an “authentication ID”). The authentication unit 121 generates communication history information by associating, with the acquired authentication ID, a communication time with the communication terminal 104.

The authentication ID is information for identifying an authenticator, and, in the present example embodiment, identification information of the communication terminal 104 utilized by the authenticator is adopted as the authentication ID. Note that, the authentication ID may be identification information of the authenticator (authenticator ID).

Note that, the authentication unit 121 is not limited to a camera, and may be configured in such a way as to acquire an authentication ID from the operated equipment 101 by infrared communication or the like.

The terminal transmission unit 122 generates transmission information including operation history information held in the operation history storage unit 120 and communication history information generated by the authentication unit 121, as an operation history transmission means. Then, the terminal transmission unit 122 transmits the generated transmission information to the communication control apparatus 102 and the server apparatus 105, by use of the second wireless communication unit 112 being different from the first wireless communication unit 110, i.e., via the second communication path CP2.

<Functional Configuration of Communication Terminal 104>

FIG. 1 is referred to again.

The communication terminal 104 displays a code including an authentication ID, according to an operation of an authenticator.

<Functional Configuration of Server Apparatus 105>

The server apparatus 105 is an apparatus that manages the equipment operation system 100, acquires transmission information from the operation terminal 103 via the second communication path CP2, and stores the acquired transmission information.

<Physical Configuration of Operated Equipment 101>

As described above, physically, as illustrated in FIG. 5 , the operated equipment 101 is medical equipment, a vending machine, or the like, and includes the sensor 106, a bus 1010, a processor 1020, a memory 1030, a storage device 1040, a communication interface 1050, a display unit 1060, and an input unit 1070.

Note that, as described above, the operated equipment 101 is medical equipment, a vending machine, or the like, and a mechanism or an apparatus (e.g., an X-ray radiation unit in a case of an X-ray apparatus, a pump in a case of a vending machine that injects a beverage into a container, or the like) according to the function of the equipment is omitted in FIG. 5 .

The bus 1010 is a data transmission path through which the sensor 106, the processor 1020, the memory 1030, the storage device 1040, the communication interface 1050, the display unit 1060, and the input unit 1070 transmit/receive data to/from one another. However, a method of mutually connecting the processor 1020 and the like is not limited to bus connection.

The processor 1020 is a processor achieved by a central processing unit (CPU), a graphics processing unit (GPU), or the like.

The memory 1030 is a main storage apparatus achieved by a random access memory (RAM) or the like.

The storage device 1040 is an auxiliary storage apparatus achieved by a hard disk drive (HDD), a solid state drive (SSD), a memory card, a read only memory (ROM), or the like. The storage device 1040 stores a program module for achieving each function of the operated equipment 101. The processor 1020 reads each of the program modules onto the memory 1030, executes the read program module, and thereby achieves each functional unit being relevant to the program module.

The communication interface 1050 is an interface for communicating with the operated equipment 101.

The display unit 1060 is a portion that displays information to a user, and is configured by, for example, a liquid crystal panel or the like.

The input unit 1070 is a portion for inputting by a user, and is configured by, for example, a touch sensor provided on a screen of the liquid crystal panel, a keyboard, a mouse, or the like.

<Physical Configuration of Communication Control Apparatus 102>

Physically, as illustrated in FIG. 6 , the communication control apparatus 102 includes a bus 2010, a processor 2020, a memory 2030, a storage device 2040, a first communication interface 2050A, a second communication interface 2050B, and a user interface 2060.

The bus 2010 is a data transmission path through which the processor 2020, the memory 2030, the storage device 2040, the first communication interface 2050A, the second communication interface 2050B, and the user interface 2060 transmit/receive data to/from one another. However, a method of mutually connecting the processor 2020 and the like is not limited to bus connection.

The processor 2020 is a processor achieved by a central processing unit (CPU), a graphics processing unit (GPU), or the like.

The memory 2030 is a main storage apparatus achieved by a random access memory (RAM) or the like.

The storage device 2040 is an auxiliary storage apparatus achieved by a hard disk drive (HDD), a solid state drive (SSD), a memory card, a read only memory (ROM), or the like. The storage device 2040 stores a program module for achieving each function of the operated equipment 101. The processor 2020 reads each of the program modules onto the memory 2030, executes the read program module, and thereby achieves each functional unit being relevant to the program module.

The first communication interface 2050A is an interface for performing communication via the first communication path CP1.

The second communication interface 2050B is an interface for performing communication via the second communication path CP2 being different from the first communication path CP1.

The user interface 2060 is a portion for displaying information to a user, and for inputting by a user, and is configured by, for example, a liquid crystal panel, a touch sensor provided on a screen of the liquid crystal panel, a keyboard, a mouse, or the like. Further, the user interface 2060 may include a speaker that emits sound.

Note that, the communication control apparatus 102 itself may not include the user interface 2060, and, in this case, for example, a personal computer, a tablet terminal, or the like may be connected via the first communication interface 2050A, the second communication interface 2050B, a universal serial bus (USB) port, or the like, as the user interface 2060 of the communication control apparatus 102, according to need.

Moreover, a functional and physical configuration of the communication control apparatus 102 may be physically and functionally incorporated in the operated equipment 101, and, in this case, the operated equipment 101 becomes a communication control apparatus.

<Physical Configurations of Operation Terminal 103, Communication Terminal 104, and Server Apparatus 105>

Each of the operation terminal 103 and the communication terminal 104 is configured by, for example, a tablet terminal, a smartphone, or the like in which an application program is previously installed. Moreover, for example, the server apparatus 105 is configured by a personal computer or the like in which an application program is previously installed.

Each of the physical components of each of the operation terminal 103, the communication terminal 104, and the server apparatus 105 may be substantially similar to that of the communication control apparatus illustrated in FIG. 6 . In order to make description brief, detailed description relating to the physical configuration of each of the operation terminal 103, the communication terminal 104, and the server apparatus 105 is omitted.

Note that, the communication terminal 104 may not include the communication interfaces 2050A and 2050B. Moreover, the server apparatus 105 may not include the first communication interface 2050A.

So far, the configuration of the equipment operation system 100 has been described. From now on, action of the equipment operation system 100 is described with reference to the drawings.

Action of Equipment Operation System 100

FIGS. 7 to 10 are diagrams illustrating a flow of equipment operation processing executed by the equipment operation system 100 according to the present example embodiment. The equipment operation processing is started, for example, in a state where a predetermined program module of each of the operated equipment 101, the communication control apparatus 102, the communication terminal 104, and the server apparatus 105 is executed, and the operation terminal 103 is run. At a time of start of the equipment operation processing, the first wireless communication unit 110 of the communication control apparatus 102 stops action for performing near-field wireless communication via the first communication path CP1, and waits for acceptance of an activation instruction.

As illustrated in FIG. 7 , the sensor 106 detects a user or a predetermined target (step S101). Thereby, the sensor 106 outputs a detection signal.

When the activation instruction unit 107 acquires the detection signal output in step S101, the activation instruction unit 107 outputs an activation instruction to the communication control apparatus 102 (step S102).

When the first wireless communication unit 110 acquires the activation instruction output in step S102, the first wireless communication unit 110 starts the action of near-field wireless communication (step S103).

On the other hand, the equipment display unit 108 displays an equipment code including an equipment ID of the operated equipment 101 on a screen after step S103 (step S104). In other words, the equipment code including the equipment ID is output to the screen of the operated equipment 101 when the action of the near-field wireless communication is started.

In this way, by displaying an equipment code including an equipment ID on a screen, it becomes possible to save a trouble of individually attaching, to the operated equipment 101, for example, a sticker or the like having the equipment code printed thereon. Moreover, by displaying an equipment code on the screen, it becomes easy to recognize the equipment code in the operation terminal 103, and, therefore, it becomes possible to lessen a possibility of erroneously reading the equipment code. Further, when there is a change of an equipment ID, an equipment code can be easily changed, and, therefore, it becomes possible to easily respond to a change in the equipment ID.

A camera captures the equipment code displayed on the equipment display unit 108 in step S104, and, thereby, the second equipment information acquisition unit 117 reads the equipment code (step S105).

In this instance, the operation terminal 103 detects that the equipment code has been read by the camera in step S105, and activates a predetermined program module. Note that, the program module of the operation terminal 103 may be executed from the time of start of the equipment operation processing.

Moreover, the operation terminal 103 may include a payment unit that automatically makes a payment via the second communication path CP2, and, in this case, when it is detected that the equipment code has been read by the camera in step S105, the payment unit may perform payment processing of a purchased product or service according to need.

The second equipment information acquisition unit 117 acquires an equipment ID, based on the equipment code read in step S105. Then, the second equipment information acquisition unit 117 transmits the acquired equipment ID to the communication control apparatus 102 via the first communication path P1 (step S106).

The first equipment information acquisition unit 114 acquires the equipment ID transmitted in step S106 via the first communication path CP1 (step S107).

The output unit 115 determines whether the equipment ID acquired in step S107 matches a previously registered equipment ID of the operated equipment 101 (step S108). When the equipment IDs do not match (step S108; No), the output unit 115 ends the equipment operation processing (step S109).

When the equipment IDs match (step S108; Yes), the output unit 115 transmits operation screen information relating to an operation screen of the operated equipment 101 according to the equipment ID, to the operation terminal 103 via the first communication path P1 (step S110), as illustrated in FIG. 8 .

The operation screen display unit 118 acquires, via the first communication path P1, the operation screen information transmitted in step S110 (step S111). Then, the operation screen display unit 118 displays the operation screen indicated by the operation screen information acquired in step S111 (step S112).

When the operation acceptance unit 119 accepts an operation of a user on the operation screen, the operation acceptance unit 119 transmits operation information according to the operation, to the communication control apparatus 102 via the first communication path P1 (step S113).

When the operation control unit 116 acquires the operation information transmitted in step S113, from the operation terminal 103 via the first communication path CP1 (step S114), the operation control unit 116 outputs the operation information to the operated equipment 101. In this instance, a format or the like of the operation information may be converted by the operation control unit 116, as appropriate.

When the equipment control unit 109 acquires the operation information output in step S114, the equipment control unit 109 causes the operated equipment 101 to act, by controlling according to the operation information (step S115).

For example, when the operated equipment 101 is medical equipment, and operation information indicates a change of setting, the equipment control unit 109 changes setting of the medical equipment according to the operation information. Moreover, for example, when the operated equipment 101 is a vending machine for a beverage, and operation information indicates purchase of the beverage, the equipment control unit 109 injects the beverage into a container, and performs payment processing, according to the operation information.

When the action based on the operation information in step S115 ends, the equipment control unit 109 outputs, to the communication control apparatus 102, an action end signal for notifying of the end (step S116).

When the equipment control unit 109 acquires the action end signal output in step S116, the equipment control unit 109 notifies the operation terminal 103 of the end of the action based on the operation information transmitted in immediately preceding step S113, via the first communication path P1 (step S117).

When the operation acceptance unit 119 acquires the notification output in step S117, the operation acceptance unit 119 holds, as operation history information, an operation history including an operation indicated by the operation information transmitted in immediately preceding step S113, and a time of the operation (step S118).

The operation acceptance unit 119 determines whether an operation end instruction has been accepted, based on an operation of a user (step S119). When the operation acceptance unit 119 determines that the operation end instruction is not accepted (step S119; No), processing in steps S113 to S118 are repeatedly executed.

When the operation acceptance unit 119 determines that the operation end instruction has been accepted (step S119; Yes), the operation acceptance unit 119 generates operation history information associating an operation terminal ID of the operation terminal 103 with the operation history held in step S118, and causes the operation history storage unit 120 to hold the generated operation history information.

Subsequently, as illustrated in FIG. 9 , the operation acceptance unit 119 transmits the operation end instruction to the operation control unit 116 via the first communication path CP1 (step S120).

When the first wireless communication unit 110 acquires the operation end instruction transmitted in step S120, the first wireless communication unit 110 ends a communication action for communicating with the operation terminal 103 via the first communication path CP1 (step S121).

Thereby, the near-field wireless communication between the communication control apparatus 102 and the operation terminal 103 via the first communication path CP1 ends. Then, the operated equipment 101 and the communication control apparatus 102 return to a state similar to that at the time of start of the equipment operation processing, and the first wireless communication unit 110 waits for acceptance of the activation instruction.

The operation terminal 103 and the communication terminal 104 perform authentication processing (step S122). The authentication processing is processing for authenticating, by an authenticator, an operation on the operated equipment 101 by a user of the operation terminal 103.

In the authentication processing (step S122), specifically, the communication terminal 104 displays an authentication code including an authentication ID, according to an operation of the authenticator (step S122 a).

A camera captures the authentication code displayed in step S122 a, and, thereby, the authentication unit 121 reads the authentication code (step S122 b).

The communication terminal 104 ends display of the authentication code, for example, when a predetermined time elapses (step S122 c).

The authentication unit 121 acquires the authentication ID included in the authentication code read in step S122 b, and associates the acquired authentication ID with the operation history information held in the operation history storage unit 120 after determination processing in step S119. Thereby, the authentication unit 121 causes the operation history storage unit 120 to hold the authentication ID in association with the operation history information (step S122 d).

Thereby, the authentication processing ends (step S122).

Subsequently, as illustrated in FIG. 10 , the operation terminal 103, the communication control apparatus 102, and the server apparatus 105 execute history storage processing (step S123). The history storage processing (step S123) is processing for causing an apparatus other than the operation terminal 103 to hold operation history information including an operation history and the like.

The terminal transmission unit 122 determines whether the second communication path CP2 can be connected (step S123 a). The terminal transmission unit 122 determines whether the second communication path CP2 can be connected, based on, for example, whether the operation terminal 103 is in an environment of being capable of transmitting and receiving radio for connecting to the second communication path CP2.

For example, when the operation terminal 103 is not in an environment of being capable of transmitting and receiving radio for connecting to the second communication path CP2, the terminal transmission unit 122 determines that the second communication path CP2 may not connected (step S123 a; No). In this case, the terminal transmission unit 122 executes determination processing in step S123 a continuously or intermittently at a predetermined time interval until an environment becomes such that the second communication path CP2 can be connected.

For example, when the operation terminal 103 is in an environment of being capable of transmitting and receiving radio for connecting to the second communication path CP2, the terminal transmission unit 122 determines that the second communication path CP2 can be connected (step S123 a; Yes). In this case, the terminal transmission unit 122 generates transmission information including the operation terminal ID of the operation terminal 103 and the operation history information (i.e., operation history information with which the authentication ID is associated) held in step S122 d (step S123 b).

The terminal transmission unit 122 transmits the transmission information generated in step S123 b to each of the communication control apparatus 102 and the server apparatus 105 via the second communication path CP2 (step S123 c).

Thereby, a communication path being different from the first communication path CP1 can be selected as a communication path for transmitting transmission information. Thus, a communication path being suitable for a data size can be selected, and, even when a data size of transmission information becomes relatively large, it becomes possible to stably transmit the transmission information in a relatively short time.

When the history acquisition unit 113 acquires the transmission information transmitted in step S123 c, the history acquisition unit 113 holds operation history information including the transmission information and a communication time for acquiring the transmission information (step S123 d).

When the server apparatus 105 acquires the transmission information transmitted in step S123 c, the server apparatus 105 also holds the operation history information including the transmission information and the communication time for acquiring the transmission information (step S123 e). The operation terminal 103 erases, from a storage unit of the operation terminal 103, the equipment code read in step S105 and the equipment ID included in the equipment code. Thereby, the communication control apparatus 102, the operation terminal 103, and the server apparatus 105 end the equipment operation processing.

According to the present example embodiment, when a detection signal of a user or a target is acquired by the sensor 106, the communication control apparatus 102 starts action of near-field wireless communication. Thus, the operation terminal 103 that can operate the operated equipment 101 can be substantially limited to the operation terminal 103 of a person detected by the sensor 106 or a person being related to a target. Therefore, it becomes possible to lower a possibility that the operated equipment 101 is operated from an operation terminal of a person who does not intend to operate the operated equipment 101.

Moreover, since the operated equipment 101 can be operated from the operation terminal 103, it becomes possible to improve operability, while suppressing erroneous working of operated equipment by being operated from an operation terminal of a person who does not intend to operate the operated equipment.

Although the example embodiment 1 of the present invention has been described above with reference to the drawings, the example embodiment 1 is an exemplification of the present invention, and may be changed, for example, as below, as appropriate.

For example, when processing of the operated equipment 101 being relevant to an operation from the operation terminal 103, such as injection of a beverage into a container in a case where the operated equipment 101 is a vending machine for the beverage, ends, the first wireless communication unit 110 may automatically end action of near-field wireless communication even though an operation end instruction is not accepted.

Moreover, for example, the operated equipment 101 may include a notification unit that notifies a user, with a sound, a screen display, or the like, of a fact that, when processing of the operated equipment 101 being relevant to an operation from the operation terminal 103 ends, a state where the sensor 106 detects that a container remains, for example, even after a predetermined time has elapsed, remains. Thereby, forgetting of taking of a container into which a beverage is poured, or the like can be prevented.

Moreover, for example, the example embodiment has been described with an example in which the operation terminal 103 has a function for operating the operated equipment 101, and the communication terminal 104 has a function for authenticating the operation.

However, the operation terminal 103 and the communication terminal 104 may be terminals each including both a function for operating the operated equipment 101 and a function for authenticating the operation.

Further, for example, the example embodiment has been described with an example in which an equipment code including an equipment ID is displayed by the equipment display unit 108, as an equipment code display means. However, the equipment code display means is not limited to a screen, and may be a surface of the operated equipment 101 having an equipment code printed thereon, a sticker having an equipment code printed thereon and being attached to the operated equipment 101, or the like.

Further, for example, the example embodiment has been described with an example in which the operation screen display unit 118 acquires operation screen information from the communication control apparatus 102 being an external apparatus.

However, the operation screen display unit 118 may acquire the operation screen information from the server apparatus 105 being another example of an external apparatus. Moreover, the operation terminal 103 may include an operation screen holding means for holding operation screen information being associated with an equipment ID, and the operation screen display unit 118 may acquire the operation screen information by use of the equipment ID from the operation screen holding means, instead of acquiring from an external apparatus. Such operation screen information may be included in, for example, a program module incorporated in the operation terminal 103.

Further, for example, the example embodiment has been described with an example in which transmission information includes operation history information, but the transmission information may include only communication history information without including the operation history information. Moreover, the terminal transmission unit 122 may transmit transmission information to an external apparatus, and the external apparatus may be one of the communication control apparatus 102 and the server apparatus 105, or may be an apparatus other than the communication control apparatus 102 and the server apparatus 105.

Further, for example, the present example embodiment has been described with an example in which the operation terminal 103 authenticates by acquiring an authentication ID from the communication terminal 104.

However, authentication processing may be able to authenticate that an operation of the operated equipment 101 is performed in presence of an authenticator.

For example, operation history information including an operation history at the operation terminal 103 may be held in each of the operation terminal 103 and the communication terminal 104. In this case, each of the operation terminal 103 and the communication terminal 104 may generate transmission information associating identification information of a counterpart terminal and a communication time of each other with the operation history information, and transmit the generated transmission information to one or both of the communication control apparatus 102 and the server apparatus 105.

Example Embodiment 2

In an example embodiment 2, an example in which a sensor included in operated equipment is a sensor for touch operation detection (hereinafter, also referred to as a “touch sensor”) provided in a display unit of operated equipment 101, and the operated equipment includes an IC card reader/writer is described.

When proximity of a user is detected by the touch sensor, action of near-field wireless communication is started. When an equipment ID transmitted from an operation terminal through the near-field wireless communication matches an equipment ID of the operated equipment (step S108; Yes), communication among the operation terminal, the operated equipment, and the IC card reader/writer can be established, and the operated equipment can be operated from the operation terminal.

<<Configuration of Equipment Operation System 200>>

An equipment operation system 200 according to the example embodiment 2 of the present invention is a system for operating operated equipment 201 from an operation terminal 203 of a user. The equipment operation system 200 includes the operated equipment 201, a communication control apparatus 202, the operation terminal 203, and a server apparatus 205 that replace operated equipment 101, a communication control apparatus 102, an operation terminal 103, and a server apparatus 105 according to the example embodiment 1, respectively. Note that, the equipment operation system 200 may not include an apparatus being equivalent to a communication terminal 104 according to the example embodiment 1.

For example, equipment that accepts input of personal confirmation information being information for performing confirmation and certification of an individual user is preferably adopted as the operated equipment 201 according to the example embodiment 2, among pieces of equipment having a possibility of being operated by different users. As an example of such equipment, an automatic teller machine (ATM) installed in a financial institution, a convenience store, or the like can be cited.

Moreover, in the present example embodiment, the personal confirmation information is described by an example in which the personal confirmation information is read from a national identification number card issued to each resident from a public institution.

Note that, the personal confirmation information may be information relating to a user, and may be utilized for confirming the individual user. The national identification number card is one example of a medium that holds the personal confirmation information, and the medium may be a driver’s license, a health insurance card, or the like.

<Functional Configuration of Operated Equipment 201>

Functionally, as illustrated in FIG. 12 , the operated equipment 201 includes an activation instruction unit 107, an equipment display unit 108, and an equipment control unit 109 that are similar to those according to the example embodiment 1, and a sensor 206 and an equipment display unit 208 that replace a sensor 106 and an equipment display unit 108 according to the example embodiment 1. Further, the operated equipment 201 includes an information reading unit 223.

The sensor 206 is a sensor for detecting proximity of a user similarly to the sensor 106 according to the example embodiment 1, and outputs a detection signal when a user or a predetermined target is detected.

The sensor 206 according to the present example embodiment is a touch sensor installed in the operated equipment 201, and outputs, when a user contacts the sensor 206, a detection signal indicating the contact.

As in the example embodiment 1, the equipment display unit 208 displays information by being configured in such a way as to include a display screen. The equipment display unit 208 according to the present example embodiment displays, for example, a PIN code in addition to an equipment code.

The PIN code is a code for confirming that an operation (e.g., arranging a national identification number card in a predetermined place) for causing the operated equipment 201 to read personal confirmation information is performed by a user of the operation terminal 203. The PIN code may be a code being valid for a predetermined time, and is configured by, for example, combining a plurality of numbers, characters, or the like.

The information reading unit 223 reads, from a card or the like including an integrated circuit (IC) chip, information held in the IC chip. Moreover, the information reading unit 223 reads an image on at least one of a front surface and a back surface of the card. As one example of such a card, a national identification number card can be cited.

Note that, the information reading unit 223 may read only either information held by the IC chip of the card or an image on at least one of the front surface and the back surface of the card.

<Functional Configuration of Communication Control Apparatus 202>

Functionally, as illustrated in FIG. 13 , the communication control apparatus 202 includes a first wireless communication unit 110, an operation unit 111, and a second wireless communication unit 112 similar to those according to the example embodiment 1. Functionally, the communication control apparatus 202 further includes a read instruction unit 224. Note that, the communication control apparatus 102 may not include a function being equivalent to a history acquisition unit 113 according to the example embodiment 1.

The read instruction unit 224 outputs a read start instruction to the operated equipment 101. The read start instruction is an instruction for causing the operated equipment 101 to perform processing for reading information by the information reading unit 223.

<Functional Configuration of Operation Terminal 203>

Functionally, as illustrated in FIG. 14 , the operation terminal 203 includes a second equipment information acquisition unit 117, an operation screen display unit 118, an operation acceptance unit 119, and an operation history storage unit 120 that are similar to those according to the example embodiment 1. Note that, the operation terminal 203 may not include functions being equivalent to an authentication unit 121 and a terminal transmission unit 122 according to the example embodiment 1.

<Functional Configuration of Server Apparatus 205>

The server apparatus 205 is an apparatus that manages an equipment operation system 100, as in the example embodiment 1.

<Physical Configuration of Operated Equipment 201>

The operated equipment 201 is an ATM or the like as described above, and, physically, as illustrated in FIG. 5 , includes a bus 1010, a processor 1020, a memory 1030, a storage device 1040, a communication interface 1050, a display unit 1060, and an input unit 1070 similar to those according to the example embodiment 1. Moreover, the operated equipment 201 includes the sensor 206 that replaces the sensor 106 according to the example embodiment 1. Further, the operated equipment 201 includes an IC card reader/writer 2080 and a camera 2090 constituting the information reading unit 223.

The IC card reader/writer 2080 performs reading and writing of information in an IC chip mounted on a card. The camera 2090 generates image information by reading an image on at least one of a front surface and a back surface of the card.

Note that, the information reading unit 223 may read at least the information in the IC chip mounted on the card, and, therefore, include an IC card reader that replaces the IC card reader/writer 2080. Moreover, the information reading unit 223 may read an image on at least one surface of the card and generate image information, and, therefore, include a scanner that replaces the camera 2090.

<Physical Configurations of Communication Control Apparatus 202, Operation Terminal 203, Server Apparatus 205>

Physically, the communication control apparatus 202, the operation terminal 203, and the server apparatus 205 may be configured similarly to the communication control apparatus 102, the operation terminal 103, and the server apparatus 105 according to the example embodiment 1, respectively. Thus, a figure illustrating the physical configurations of the communication control apparatus 202, the operation terminal 203, and the server apparatus 205 according to the present example embodiment is omitted.

<<Action of Equipment Operation System 200>>

FIGS. 16 to 18 are diagrams illustrating a flow of equipment operation processing executed by the equipment operation system 100 according to the present example embodiment. The equipment operation processing is started, for example, in a state where a predetermined program module of each of the operated equipment 201, the communication control apparatus 202, and the server apparatus 205 is executed, and the operation terminal 203 is run, as in the example embodiment 1. At a time of start of the equipment operation processing, the first wireless communication unit 110 of the communication control apparatus 202 stops action for performing near-field wireless communication via a first communication path CP1, and waits for acceptance of an activation instruction.

As illustrated in FIG. 16 , the sensor 206 detects a user by being touched by a finger or the like of the user (step S201). Thereby, the sensor 206 outputs a detection signal.

Subsequently, as illustrated in FIG. 16 , the operated equipment 201, the communication control apparatus 202, and the operation terminal 203 execute processing in steps S102 to S109 similar to those according to the example embodiment 1.

When an equipment ID acquired in step S107 matches a previously registered equipment ID of the operated equipment 101 (step S108; Yes), the output unit 115 transmits operation screen information to the operation terminal 103 via a first communication path P1, as illustrated in FIG. 17 (step S210).

The operation screen information transmitted in step S210 is information relating to an operation screen of the operated equipment 101 according to the equipment ID, and is, for example, information relating to a PIN code input screen. The PIN code input screen is a screen for inputting a PIN code.

The read instruction unit 224 outputs a read start instruction to the operated equipment 201 (step S224).

When the information reading unit 223 accepts the read start instruction output in step S224, the information reading unit 223 reads personal confirmation information (step S225).

In read processing (step S225), for example, when a user arranges a national identification number card in a predetermined place, the information reading unit 223 detects that the national identification number card has been arranged. Then, the information reading unit 223 reads personal confirmation information held in an IC chip of the national identification number card. Moreover, the information reading unit 223 reads one surface or both surfaces of the national identification number card.

Note that, the information reading unit 223 may be predetermined as to whether to read only one surface of the national identification number card or read both surfaces thereof. When reading both surfaces, the information reading unit 223 may simultaneously read each surface with a plurality of cameras, or read one side at a time with one camera by causing a user to turn over the national identification number card.

The equipment display unit 208 generates a PIN code, and displays the generated PIN code (step S226).

The operation screen display unit 118 acquires, via the first communication path P1, the operation screen information transmitted in step S210 (step S211), and displays an operation screen indicated by the operation screen information (step S212).

When the operation acceptance unit 119 accepts an operation of a user on the operation screen, the operation acceptance unit 119 transmits operation information being relevant to the operation, to the communication control apparatus 102 via the first communication path P1 (step S213).

The operation information transmitted in step S213 includes a PIN code input by a user, for example, when an operation on the PIN code input screen displayed in step S212 is performed.

When an operation control unit 116 acquires, from the operation terminal 203 via the first communication path CP1, the operation information transmitted in step S213 (step S214), the operation control unit 116 outputs the operation information to the operated equipment 201. In this instance, a format or the like of the operation information may be converted by the operation control unit 116 as appropriate.

When the equipment control unit 109 acquires the operation information output in step S214, the equipment control unit 109 causes the operated equipment 101 to act, based on the operation information (step S215).

Specifically, for example, in step S215, the equipment control unit 109 determines whether the PIN code included in the acquired operation information matches the PIN code displayed in step S226. Moreover, for example, the equipment control unit 109 holds the information read in step S225.

Note that, the equipment control unit 109 may transmit the information read in step S225 to the server apparatus 205 via the second wireless communication unit 112, and in this case, the server apparatus 205 may hold the received information.

The equipment control unit 109 generates an action end signal including a result of determination in step S215, and outputs the generated action end signal to the communication control apparatus 202 (step S216).

Specifically, when the equipment control unit 109 determines that the PIN codes match, the equipment control unit 109 generates and outputs an action end signal including a result of determination that authentication by the PIN code is successful, and the operation screen information for continuing the operation. When the equipment control unit 109 determines that the PIN codes do not match, the equipment control unit 109 generates and outputs an action end signal including a result of determination that the authentication by the PIN code has failed.

When the equipment control unit 109 acquires the action end signal output in step S216, the equipment control unit 109 notifies the operation terminal 103 of end of the action being relevant to the operation screen information transmitted last time, via the first communication path P1 (step S217). The notification transmitted in step S217 includes, when notifying of, for example, end of the action being relevant to the operation screen information transmitted in step S210, the result of the determination in step S215 and operation screen information for a next operation.

When the operation acceptance unit 119 acquires the notification output in step S217, the operation acceptance unit 119 holds, as operation history information, an operation history including an operation indicated by the operation information transmitted in immediately preceding step S213, and a time of the operation (step S218).

The operation acceptance unit 119 determines, based on an operation of a user, whether an operation end instruction is accepted (step S230). When it is determined that an operation end instruction is not accepted (step S230; No), the processing in steps S213 to 218 is repeatedly executed until an operation end instruction is accepted.

When it is determined that an operation end instruction is accepted (step S119; Yes), the operation acceptance unit 119 and the first wireless communication unit 110 execute steps S120 and S121 similar to those according to the example embodiment 1, respectively. Thereby, the communication control apparatus 202, the operation terminal 203, and the server apparatus 205 end the equipment operation processing.

According to the present example embodiment, when a detection signal of a user is acquired by the sensor 206, the communication control apparatus 202 starts action of near-field wireless communication. Thus, the operation terminal 103 that can operate the operated equipment 201 can be substantially limited to the operation terminal 103 of a person detected by the sensor 206. Therefore, it becomes possible to lower a possibility that the operated equipment 201 is operated from an operation terminal of a person who does not intend to operate the operated equipment 201.

Moreover, since the operated equipment 101 can be operated from the operation terminal 103, it becomes possible to improve operability, while suppressing erroneous working of the operated equipment by being operated from an operation terminal of a person who does not intend to operate the operated equipment.

Although the example embodiments and the modified example of the present invention have been described above with reference to the drawings, the example embodiments and the modified example are exemplifications of the present invention, and may be changed as appropriate.

For example, although a plurality of processes (pieces of processing) are described in order in a diagram illustrating a flow used in the above description, an execution order of the processes is not limited to the described order. An order of the processes may be changed to an extent that causes no problem in terms of content. Moreover, the one example embodiment and modified example described above may be combined to an extent that content does not contradict.

One means or all means according to the example embodiment described above can also be described as, but are not limited to, the following supplementary notes.

1. A communication control apparatus including:

-   a first wireless communication means for starting action of     near-field wireless communication when acquiring a detection signal     of a user or a target by a sensor installed in operated equipment or     an apparatus relating to the operated equipment; and -   an operation means for operating the operated equipment by use of     the first wireless communication means, based on information from     the operation terminal.

2. The communication control apparatus according to supplementary note 1, wherein the operation means includes

-   an acquisition means for acquiring, from the operation terminal,     equipment information for identifying the operated equipment, and -   an output means for outputting, to the operation terminal, an     operation screen of the operated equipment, based on the equipment     information acquired by the acquisition means.

3. The communication control apparatus according to supplementary note 1 or 2, wherein

the acquisition means acquires from the operation terminal that has acquired the equipment information included in a code.

4. The communication control apparatus according to any one of supplementary notes 1 to 3, wherein

a code including the equipment information is output to a screen of the operated equipment, when action of near-field wireless communication is started.

5. The communication control apparatus according to any one of supplementary notes 1 to 4, wherein

the first wireless communication means ends an action of the near-field wireless communication, when an operation end instruction indicating ending of an operation of the operated equipment is accepted from the operation terminal, or when processing of the operated equipment being relevant to an operation from the operation terminal ends.

6. The communication control apparatus according to any one of supplementary notes 1 to 5, wherein

the sensor is a touch sensor for detecting a touch operation.

7. The communication control apparatus according to supplementary note 6, wherein

the operated equipment is an automatic teller machine.

8. The communication control apparatus according to any one of supplementary notes 1 to 5, wherein

-   the operated equipment is medical equipment, and -   the target is the operation terminal.

9. The communication control apparatus according to any one of supplementary notes 1 to 5, wherein

-   the operated equipment is a vending machine in which a user stores a     container, and -   the target is a container.

10. The communication control apparatus according to any one of supplementary notes 1 to 9, further including

an operation history acquisition means for acquiring at least one of identification information of the operation terminal and identification information of the user, and the operation history, from the operation terminal via a second wireless communication means being different from the first wireless communication means.

11. The communication control apparatus according to any one of supplementary notes 1 to 10, further including

a communication history acquisition means for acquiring information relating to a communication history between a communication terminal being different from the operation terminal and the operation terminal.

12. The communication control apparatus according to supplementary note 11, wherein

the communication history includes identification information of the communication terminal, and a communication time between the communication terminal and the operation terminal.

13. An operation terminal including:

-   an equipment information acquisition means for acquiring equipment     information for identifying operated equipment; -   an operation screen acquisition means for acquiring operation screen     information relating to an operation screen of the operated     equipment, by use of the equipment information; -   an output means for outputting the operation screen information     acquired by the operation screen acquisition means; -   an operation history storage means for storing an operation history     via the operation screen; and -   an operation history transmission means for transmitting, to an     external apparatus, transmission information including at least one     of identification information of an operation terminal and     identification information of a user, and the operation history.

14. The operation terminal according to supplementary note 13, wherein

the operation screen acquisition means acquires the operation screen information from the external apparatus or an operation screen holding means for holding the operation screen information.

15. The operation terminal according to supplementary note 13, wherein

-   the operation screen acquisition means acquires the operation screen     information by use of the first wireless communication means, and -   the operation history transmission means transmits the transmission     information by use of a second wireless communication means being     different from the first wireless communication means.

16. The operation terminal according to any one of supplementary note 13 to 15, further including

a communication history acquisition means for acquiring information relating to a communication history between a communication terminal being different from the operation terminal and the operation terminal, wherein

the operation history transmission means includes the communication history in the transmission information instead of the operation history or together with the operation history.

17. The operation terminal according to supplementary note 16, wherein

the communication history includes identification information of the communication terminal, and a communication time with the communication terminal.

18. An equipment operation system including:

-   a communication control apparatus and an operation terminal being     capable of performing near-field wireless communication with each     other, wherein -   the communication control apparatus includes -   a first wireless communication means for starting action of     near-field wireless communication when acquiring a detection signal     of a user or a target by a sensor installed in operated equipment or     an apparatus relating to the operated equipment, and -   an operation means for operating the operated equipment by use of     the first wireless communication means, based on information     acquired from the operation terminal, and -   the operation terminal includes -   an equipment information acquisition means for acquiring equipment     information for identifying the operated equipment, -   an operation screen display means for displaying an operation screen     of the operated equipment, based on the equipment information, and -   an operation information transmission means for transmitting, to the     first wireless communication means, the information according to an     operation on the operation screen.

19. A communication control method including,

-   by a computer: -   starting action of near-field wireless communication when acquiring     a detection signal of a user or a target by a sensor installed in     operated equipment or an apparatus relating to the operated     equipment; and -   operating the operated equipment by use of the near-field wireless     communication, based on information from the operation terminal.

20. A program for causing a computer to execute:

-   starting action of near-field wireless communication when acquiring     a detection signal of a user or a target by a sensor installed in     operated equipment or an apparatus relating to the operated     equipment; and -   operating the operated equipment by use of the near-field wireless     communication, based on information from the operation terminal.

21. An operation terminal control method including,

-   by a computer: -   acquiring equipment information for identifying operated equipment; -   acquiring operation screen information relating to an operation     screen of the operated equipment, by use of the equipment     information; -   outputting the operation screen information acquired by the     operation screen acquisition means; and -   transmitting, to an external apparatus, transmission information     including at least one of identification information of an operation     terminal and identification information of a user, and an operation     history via the operation screen.

22. A program for causing a computer to execute:

-   acquiring equipment information for identifying operated equipment; -   acquiring operation screen information relating to an operation     screen of the operated equipment, by use of the equipment     information; -   outputting the operation screen information acquired by the     operation screen acquisition means; and -   transmitting, to an external apparatus, transmission information     including at least one of identification information of an operation     terminal and identification information of a user, and an operation     history via the operation screen.

This application is based upon and claims the benefit of priority from PCT/JP2020/036777, filed on Sep. 29, 2020, the disclosure of which is incorporated herein in its entirety by reference.

Reference Signs List

100, 200 Equipment operation system 101, 201 Operated equipment 102, 202 Communication control apparatus 103, 203 Operation terminal 104 Communication terminal 105, 205 Server apparatus 106, 206 Sensor 107 Activation instruction unit 108, 208 Equipment display unit 109 Equipment control unit 110 First wireless communication unit 111 Operation unit 112 Second wireless communication unit 113 History acquisition unit 114 First equipment information acquisition unit 115 Output unit 116 Operation control unit 117 Second equipment information acquisition unit 118 Operation screen display unit 119 Operation acceptance unit 120 Operation history storage unit 121 Authentication unit 122 Terminal transmission unit 223 Information reading unit 

What is claimed is: 1] A communication control apparatus comprising: at least one memory configured to store instructions; and at least one processor configured to execute the instructions to perform operations comprising: starting action of near-field wireless communication when acquiring a detection signal of a user or a target by a sensor installed in operated equipment or an apparatus relating to the operated equipment; and operating the operated equipment by use of the near-field wireless communication, based on information from the operation terminal. 2] The communication control apparatus according to claim 1, wherein operating the operated equipment includes acquiring, from the operation terminal, equipment information for identifying the operated equipment, and outputting, to the operation terminal, an operation screen of the operated equipment, based on the acquired equipment information. 3] The communication control apparatus according to claim 1, wherein acquiring equipment information includes acquiring the equipment information from the operation terminal that has acquired the equipment information included in a code. 4] The communication control apparatus according to claim 3, wherein a code including the equipment information is output to a screen of the operated equipment, when action of the near-field wireless communication is started. 5] The communication control apparatus according to claim 1, wherein an action of the near-field wireless communication is ended, when an operation end instruction indicating ending of an operation of the operated equipment is accepted from the operation terminal, or when processing of the operated equipment being relevant to an operation from the operation terminal ends. 6] The communication control apparatus according to claim 1, wherein the sensor is a touch sensor for detecting a touch operation. 7] The communication control apparatus according to claim 1, further comprising acquiring at least one of identification information of the operation terminal and identification information of the user, and the operation history, from the operation terminal via a communication path being different from the near-field wireless communication. 8] The communication control apparatus according to claim 1, further comprising acquiring information relating to a communication history between a communication terminal being different from the operation terminal and the operation terminal. 9] The communication control apparatus according to claim 8, wherein the communication history includes identification information of the communication terminal, and a communication time between the communication terminal and the operation terminal. 10] An operation terminal comprising: at least one memory configured to store instructions; and at least one processor configured to execute the instructions to perform operations comprising: acquiring equipment information for identifying operated equipment; acquiring operation screen information relating to an operation screen of the operated equipment, by use of the equipment information; outputting the acquired operation screen information; storing an operation history via the operation screen; and transmitting, to an external apparatus, transmission information including at least one of identification information of an operation terminal and identification information of a user, and the operation history. 11] The operation terminal according to claim 10, wherein acquiring operation screen includes acquiring the operation screen information from the external apparatus or operation screen holding unit for holding the operation screen information. 12] The operation terminal according to claim 10, wherein acquiring the operation screen includes acquiring the operation screen information by use of the first communication path, and transmitting the transmission information includes transmitting the transmission information by use of a second communication path being different from the first communication path. 13] The operation terminal according to claim 10, further comprising acquiring information relating to a communication history between a communication terminal being different from the operation terminal and the operation terminal, wherein the transmission information includes the communication history instead of the operation history or together with the operation history. 14] The operation terminal according to claim 13, wherein the communication history includes identification information of the communication terminal, and a communication time with the communication terminal. 15] An equipment operation system comprising: a communication control apparatus and an operation terminal being capable of performing near-field wireless communication with each other, wherein the communication control apparatus includes: at least one memory configured to store instructions; and at least one processor configured to execute the instructions to perform operations including: starting action of near-field wireless communication when acquiring a detection signal of a user or a target by a sensor installed in operated equipment or an apparatus relating to the operated equipment, and operating the operated equipment by use of the near-field wireless communication, based on information acquired from the operation terminal, and the operation terminal includes: at least one memory configured to store instructions; and at least one processor configured to execute the instructions to perform operations including: acquiring equipment information for identifying the operated equipment, displaying an operation screen of the operated equipment, based on the equipment information, and transmitting, to the communication control apparatus via the near-field wireless communication, the information according to an operation on the operation screen. 16-19] (canceled) 